237 lines
6.7 KiB
Go
237 lines
6.7 KiB
Go
// Copyright 2015 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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//go:generate go run ../collate/maketables.go -cldr=23 -unicode=6.2.0 -types=search,searchjl -package=search
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// Package search provides language-specific search and string matching.
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//
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// Natural language matching can be intricate. For example, Danish will insist
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// "Århus" and "Aarhus" are the same name and Turkish will match I to ı (note
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// the lack of a dot) in a case-insensitive match. This package handles such
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// language-specific details.
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//
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// Text passed to any of the calls in this message does not need to be
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// normalized.
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package search // import "golang.org/x/text/search"
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import (
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"strings"
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"golang.org/x/text/internal/colltab"
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"golang.org/x/text/language"
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)
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// An Option configures a Matcher.
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type Option func(*Matcher)
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var (
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// WholeWord restricts matches to complete words. The default is to match at
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// the character level.
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WholeWord Option = nil
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// Exact requires that two strings are their exact equivalent. For example
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// å would not match aa in Danish. It overrides any of the ignore options.
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Exact Option = nil
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// Loose causes case, diacritics and width to be ignored.
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Loose Option = loose
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// IgnoreCase enables case-insensitive search.
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IgnoreCase Option = ignoreCase
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// IgnoreDiacritics causes diacritics to be ignored ("ö" == "o").
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IgnoreDiacritics Option = ignoreDiacritics
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// IgnoreWidth equates narrow with wide variants.
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IgnoreWidth Option = ignoreWidth
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)
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func ignoreDiacritics(m *Matcher) { m.ignoreDiacritics = true }
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func ignoreCase(m *Matcher) { m.ignoreCase = true }
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func ignoreWidth(m *Matcher) { m.ignoreWidth = true }
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func loose(m *Matcher) {
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ignoreDiacritics(m)
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ignoreCase(m)
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ignoreWidth(m)
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}
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var (
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// Supported lists the languages for which search differs from its parent.
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Supported language.Coverage
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tags []language.Tag
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)
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func init() {
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ids := strings.Split(availableLocales, ",")
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tags = make([]language.Tag, len(ids))
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for i, s := range ids {
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tags[i] = language.Raw.MustParse(s)
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}
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Supported = language.NewCoverage(tags)
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}
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// New returns a new Matcher for the given language and options.
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func New(t language.Tag, opts ...Option) *Matcher {
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m := &Matcher{
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w: getTable(locales[colltab.MatchLang(t, tags)]),
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}
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for _, f := range opts {
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f(m)
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}
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return m
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}
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// A Matcher implements language-specific string matching.
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type Matcher struct {
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w colltab.Weighter
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ignoreCase bool
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ignoreWidth bool
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ignoreDiacritics bool
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}
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// An IndexOption specifies how the Index methods of Pattern or Matcher should
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// match the input.
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type IndexOption byte
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const (
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// Anchor restricts the search to the start (or end for Backwards) of the
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// text.
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Anchor IndexOption = 1 << iota
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// Backwards starts the search from the end of the text.
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Backwards
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anchorBackwards = Anchor | Backwards
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)
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// Index reports the start and end position of the first occurrence of pat in b
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// or -1, -1 if pat is not present.
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func (m *Matcher) Index(b, pat []byte, opts ...IndexOption) (start, end int) {
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// TODO: implement optimized version that does not use a pattern.
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return m.Compile(pat).Index(b, opts...)
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}
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// IndexString reports the start and end position of the first occurrence of pat
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// in s or -1, -1 if pat is not present.
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func (m *Matcher) IndexString(s, pat string, opts ...IndexOption) (start, end int) {
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// TODO: implement optimized version that does not use a pattern.
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return m.CompileString(pat).IndexString(s, opts...)
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}
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// Equal reports whether a and b are equivalent.
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func (m *Matcher) Equal(a, b []byte) bool {
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_, end := m.Index(a, b, Anchor)
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return end == len(a)
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}
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// EqualString reports whether a and b are equivalent.
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func (m *Matcher) EqualString(a, b string) bool {
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_, end := m.IndexString(a, b, Anchor)
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return end == len(a)
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}
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// Compile compiles and returns a pattern that can be used for faster searching.
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func (m *Matcher) Compile(b []byte) *Pattern {
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p := &Pattern{m: m}
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iter := colltab.Iter{Weighter: m.w}
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for iter.SetInput(b); iter.Next(); {
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}
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p.ce = iter.Elems
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p.deleteEmptyElements()
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return p
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}
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// CompileString compiles and returns a pattern that can be used for faster
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// searching.
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func (m *Matcher) CompileString(s string) *Pattern {
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p := &Pattern{m: m}
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iter := colltab.Iter{Weighter: m.w}
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for iter.SetInputString(s); iter.Next(); {
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}
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p.ce = iter.Elems
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p.deleteEmptyElements()
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return p
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}
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// A Pattern is a compiled search string. It is safe for concurrent use.
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type Pattern struct {
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m *Matcher
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ce []colltab.Elem
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}
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// Design note (TODO remove):
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// The cost of retrieving collation elements for each rune, which is used for
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// search as well, is not trivial. Also, algorithms like Boyer-Moore and
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// Sunday require some additional precomputing.
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// Index reports the start and end position of the first occurrence of p in b
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// or -1, -1 if p is not present.
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func (p *Pattern) Index(b []byte, opts ...IndexOption) (start, end int) {
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// Pick a large enough buffer such that we likely do not need to allocate
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// and small enough to not cause too much overhead initializing.
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var buf [8]colltab.Elem
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it := &colltab.Iter{
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Weighter: p.m.w,
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Elems: buf[:0],
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}
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it.SetInput(b)
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var optMask IndexOption
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for _, o := range opts {
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optMask |= o
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}
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switch optMask {
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case 0:
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return p.forwardSearch(it)
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case Anchor:
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return p.anchoredForwardSearch(it)
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case Backwards, anchorBackwards:
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panic("TODO: implement")
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default:
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panic("unrecognized option")
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}
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}
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// IndexString reports the start and end position of the first occurrence of p
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// in s or -1, -1 if p is not present.
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func (p *Pattern) IndexString(s string, opts ...IndexOption) (start, end int) {
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// Pick a large enough buffer such that we likely do not need to allocate
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// and small enough to not cause too much overhead initializing.
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var buf [8]colltab.Elem
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it := &colltab.Iter{
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Weighter: p.m.w,
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Elems: buf[:0],
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}
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it.SetInputString(s)
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var optMask IndexOption
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for _, o := range opts {
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optMask |= o
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}
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switch optMask {
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case 0:
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return p.forwardSearch(it)
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case Anchor:
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return p.anchoredForwardSearch(it)
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case Backwards, anchorBackwards:
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panic("TODO: implement")
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default:
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panic("unrecognized option")
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}
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}
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// TODO:
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// - Maybe IndexAll methods (probably not necessary).
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// - Some way to match patterns in a Reader (a bit tricky).
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// - Some fold transformer that folds text to comparable text, based on the
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// search options. This is a common technique, though very different from the
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// collation-based design of this package. It has a somewhat different use
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// case, so probably makes sense to support both. Should probably be in a
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// different package, though, as it uses completely different kind of tables
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// (based on norm, cases, width and range tables.)
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